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Bachelor of Engineering (Telecommunication and Network Engineering)

I059  043848G



Duration

 Campus and Intake Show intake calendar

Fee*
4 Year/s (Term 4 intake is only available to students progressing from Unilink Engineering.) Hawthorn (Semester 1, Semester 2, Term 4) A$24,200 (annual for 2012) 
*The indicative course fees shown in Course Search apply to international students studying on-campus in Australia for the relevant year only. They are based on a standard study load per year. However, please note that fees are assessed according to a student's study load in each semester, and variation to study load will result in an adjustment to tuition fees. All fees are subject to annual review and may be adjusted.

This course will provide you with a professional understanding of the science and engineering principles underlying telecommunication and network engineering. You will develop skills in radio frequency telecommunications specialising in wireless secure communications, advanced-level networking with a strong emphasis on security, digital and analogue electronics, software programming and mathematics. The course also offers electives that prepare you for both Cisco Certified Network Professional and MCITP:SA (Microsoft Certified Technology Specialist: Server Administrator) certification.

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The Bachelor of Engineering in Telecommunication and Network Engineering is a broad-based course. It develops in students a mastery of the basic engineering principles underlying electronic and telecommunications engineering. This course emphasises an in-depth understanding of the technology of the internet and the international telecommunications industry. It covers the internet, local and global digital networking, and mobile communication systems for tomorrow's broadband-interactive information highways. The course also offers electives that prepare the student to obtain both Cisco Systems and Microsoft Industry certifications.
 
The degree provides graduates with skills in RF telecommunications, with specialisation in wireless secure communications; advanced level networking, with a strong emphasis in security; digital and analogue electronics; software programming; and mathematics. Detailed theoretical learning is coupled with extensive practical experience in various aspects of networking and signal analysis used in the telecommunications/networking field. A large range of electives is also available to suit individual interests.

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This course aims to:
  • Develop in students a broad mastery of the basic science and engineering principles underlying telecommunications and internet technologies and an ability to apply that knowledge
  • Develop in students a thorough understanding of appropriate engineering methods and techniques - and competence in their application - so that students are able to comprehend and analyse problems and obtain satisfactory design solutions that, where appropriate, show originality and resourcefulness
  • Develop students' communication skills so that they can present their ideas clearly by verbal, written and graphic means both within the engineering community and the community at large
  • Give students an appropriate introduction to the role of the professional engineer in the community and to explore the social effects of engineering decisions
  • Develop the moral, social, aesthetic, environmental and ethical concepts essential to a satisfying personal philosophy and a sound professional attitude
  • Develop abilities to function effectively as an individual and in project teams, whether as manager, leader or team member
  • Prepare students for the changing workplace and the changing societal context of engineering by developing their life-long learning skills and flexibility of mind

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This course will operate under a student workload model based on 100 credit points for a full-time academic year. One credit point is deemed to be equivalent to one hour of student work per week over a semester, whether in contact with staff or in private study. Four units of study will generally be taken each semester. The typical student's average weekly workload during semester is therefore expected to be 50 hours. Total student contact hours, including lectures, classes, tutorials, flexible learning and laboratory and field sessions will vary in different semesters.

Students choose units of study from six Study Groups:
According to the following rules, students complete at least 400 credit points made up of:
  • Engineering Core Studies (287.5 credit points)
  • Software Engineering Studies (25 credit points)
  • Internetworking Studies# (25 credit points)
  • Management and Business Studies (12.5 credit points)
  • Elective (Technical Studies) or Elective Plus Minor (50 credit points)
  • Both Generic Skills Studies (0 credit points)
# Students who have not completed an approved “Exploration CCNA” Cisco Networking Academy Program (CNAP) must do HET104 and HET424.
 
Note: international student visa holders are required to study full-time.
 
Careers in the Curriculum (CIC)
In addition to the above, students must complete a compulsory unit of study HIT0004 Careers in the Curriculum to be awarded the degree. Careers in the Curriculum (CIC) is an innovative unit designed to assist Swinburne students to enhance their employability and career prospects.  It is usually undertaken in the second year of your course and is compulsory for all undergraduate students who commence their course from 2007 onwards. Students studying CIC will not incur a HECS or fee debt for the unit as the cost will be met by the university as part of an initiative to enhance students' career skills.
  
Final Year Experience - Major Projects
As part of the Swinburne Model for Professional Learning, all students will undertake a professionally-focused final-year project as part of their degree. Entry with advanced standing may require alternate study sequences to be undertaken.

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Engineering (Telecommunications) Core Studies (all 12.5 CP)
HET105 Professional Skills - Telecommunications

Software Engineering Studies (all 12.5 CP)
HIT2080 Introduction to Programming
HIT3725 Troubleshooting IP Networks

Technical Studies: (all 12.5 CP)  
 
or a sequence of four units that develops a specialization (listed below)
or 50 credit points from one of the Electives Plus Minors

Management & Business Studies (all 12.5 CP)
HBSG200 New Venture Development and Management
HES5380 Engineering Management 2
 
Generic Skills Studies
 
Students may also choose to undertake an optional year of Industry-Based Learning (100 credit points). Note that this optional Industry-Based Learning program is not available to international students.
 
* Students who have not completed an approved Cisco Networking Academy Program (CNAP) must do HET104 and HET424
 
Recommended Study Sequence
 
Stage 1
Semester 1
 
Stage 2
 
Stage 3
Note that this optional Industry-Based Learning program is not available to international students.
or
Semester 1
A Technical Elective or Electives Plus unit
Semester 2
HES3380 Engineering Management 1
Technical Elective or Electives Plus unit
 
Stage 4
Semester 1
Semester 2
Technical Elective or Electives Plus unit
Management and Business Studies (choose one)
 
# Students who have not completed an approved Cisco Networking Academy Program (CNAP) must do HET104 and HET424.
 
Note: in addition to the above sequence, the successful completion of Professional Experience in Engineering (HED400) is required for the award of the degree. This unit can be taken at any stage of the program.
 
Specialisations
 
Advanced Internetworking

Network Administration and Applications
 
Telecommunication Electronics
 

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Swinburne offers International Exchange Programs as well as other Education Abroad Programs to help internationalise your degree. International Exchange is an academic program allowing you to study at a Swinburne Partner Institution for one or two semesters during your degree. Swinburne's Partner Institutions offer many relevant subjects as well as a secure base to explore a different culture. Your studies while on exchange can be credited towards your Swinburne degree, provided they are relevant and approved by Swinburne. For further information visit the Swinburne Abroad website.

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Graduates will find rewarding high-tech careers in the converging telecommunications, multimedia, computing, and internet 'information technology' industries. They may become an internet applications engineer, a telecommunications link designer, an embedded computing systems designer, an embedded software systems designer, a network switching and protocol designer, an analyst/designer/manager of internal corporate multimedia networks, or a network administrator/webmaster.

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This course is fully accredited by Engineers Australia. On completion of the degree, students are eligible to apply for graduate membership with Engineers Australia.

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Apply for this course by following the step-by-step process on our How to Apply page.

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Swinburne College English for Academic Purposes Advanced level  certificate at the undergraduate level (EAP 5: UG-65% ); OR, Obtaining a minimum IELTS overall band of 6.0 (Academic Module) with no individual band below 6.0; OR, a TOEFL (Paper-based) minimum score of 550 (with Test of Written English (TWE) score of 5); OR, a TOEFL (Computer-based) minimum score of 213 (with Written Writing score of 5); OR, a TOEFL (Internet-based) minimum score of 80 with no band less than 20.

 

Refer to the English Language Requirements website for further information.

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Advanced Maths plus one of either Biology, Chemistry, Physics, Psychology, Information Technology/Information Systems, or Specialist Maths.  

Note: Advanced Mathematics studies must be equivalent to the Year 12 VCE Advanced Maths subject that includes topics in coordinate geometry, circular (trigonometric) functions, calculus, algebra, statistics and probability; and Specialist Maths studies must be equivalent to the Year 12 VCE Specialist Maths subject that includes topics in coordinate geometry, circular (trigonometric) functions, calculus, algebra, vectors, complex numbers and mechanics.

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Enquire online: http://www.swinburne.edu.au/international/enquiry

Email: international@swinburne.edu.au

Phone:
+613 8676 7002 (outside Australia)
Freecall 1800 897 973 (within Australia)

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Visit our Meet Us page to see when we are visiting your home country (or here in Australia)

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A range of scholarships is available to international students, visit our Scholarship Page for details.

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